Abstract

This study investigated to what extent rod-dominated vision affects motion and form perception accuracy. Twenty-nine healthy subjects took part in the experiment. Form coherence (FC), form-from-motion (FFM) and motion coherence (MC) tests were assessed in low-light (rod-dominated vision) and high-light (cone-dominated vision) conditions. For each test we determined the accuracy by evaluating the correct detection obtained in five levels of coherence (corresponding to different signal-to-noise ratio). The results evidenced that motion, form and form-from-motion accuracy decreased in low-light condition. Furthermore, light condition effect was differently mediated by noise according to the type of task. The motion perception is affected only at high noise levels, while form discrimination was globally affected at all the levels, also in absence of noise, both for static (FC) and dynamic stimuli (FFM). We conclude that in rod-dominated vision form-from-motion perception is more defected than form and motion perception. We hypothesized that our results are due to the integration between M and P cells in FFM test increases the form perception accuracy in high-light condition but this advantage is completely lost during low-light condition, when the rods need to integrate information both from M and P cells.

Highlights

  • Visual function in humans is strongly reduced at low luminance levels, such as at night

  • The form recognition was affected by luminance level (High-/low-light condition effect: F1,28=39.587; p

  • The accuracy in form perception was related to the presence of noise (Coherence level effect: F4,25= 102.627; p

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Summary

Introduction

Visual function in humans is strongly reduced at low luminance levels, such as at night. Several studies demonstrated that when the luminance level is very low, under scotopic visual condition, visual acuity (spatial resolution) becomes worse, color discrimination decreases radically, contrast sensitivity is reduced and temporal resolution is compromised. The Magnocellular pathway (Mpathway) is sensitive to low spatial and high temporal frequencies and it is primarily connected to the parietal lobes via the dorsal stream [7]. This stream is highly sensitive to motion and low luminance signal

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